A communication antenna has a rectangular radiating section, and has a structure that emits an electric field of linear polarized waves only in a vicinity of the radiating section of the antenna. An RFID tag has an IC chip and a tag antenna that is long in a predetermined direction. The tag antenna has a main antenna portion that is rectilinear and extends over substantially an entire length in a longitudinal direction of the tag antenna, and folded-over antenna portions at which currents induced by an external electric field offset one another due to portions that extend in mutually different orientations in the longitudinal direction. A parallel interval between the main antenna portion and a first folded-over antenna portion exceeds a width of the radiating section of the communication antenna.
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1. A communication antenna formed in a flat-plate-shape overall, for carrying out communication with an RFID tag, the communication antenna comprising: a ground layer formed at one surface of the communication antenna over substantially an entire surface; and a rectangular radiating section formed in a rectangular shape at another surface of the communication antenna, and having, at about a central portion in a longitudinal direction of the radiating section, a single feed point that passes through the ground layer, wherein a width of the radiating section in a direction forming a right angle with the longitudinal direction of the radiating section is greater than or equal to 0.3 mm and less than 10 mm, and an interval between the radiating section and the ground layer is greater than or equal to 1/512 and less than 1/64 of a wavelength of radio waves used in communication.
A flat, rectangular communication antenna communicates with RFID tags. One side features a ground layer covering almost the entire surface. The opposite side has a rectangular radiating section with a single feed point near its center that connects through the ground layer. The width of the radiating section (perpendicular to its length) is between 0.3 mm and 10 mm. The distance between the radiating section and ground layer is between 1/512 and 1/64 of the radio wave's wavelength. This antenna emits linearly polarized waves near the radiating section.
2. An RFID tag comprising: an element for communication; and a tag antenna formed by being folded-over a plurality of times in a longitudinal direction of the tag antenna at both sides in the longitudinal direction so as to be symmetrical with respect to the element for communication, the tag antenna having a main antenna portion extending in a rectilinear form over substantially an entire length in the longitudinal direction, and having, at portions extending in mutually different orientations of the longitudinal direction, folded-over antenna portions at which currents induced by an external electric field offset one another, the tag antenna being structured such that the main antenna portion and the folded-over antenna portions are parallel in a transverse direction, wherein the main antenna portion extends in the rectilinear form over substantially the entire length in the longitudinal direction at one end side in the transverse direction, wherein each of the folded-over antenna portions comprises: a first folded-over antenna portion that is folded-over from an end portion in the longitudinal direction toward a longitudinal direction central side, and is disposed parallel to the main antenna portion at a first predetermined interval, and a second folded-over antenna portion that is folded-over from a central side in the longitudinal direction toward a longitudinal direction end portion side, and is disposed parallel to the first folded-over antenna portion at a second predetermined interval that is less than the first predetermined interval, and wherein the second predetermined interval is less than or equal to two times a width dimension of a radiating section that structures an antenna that is a partner in short-distance communication and at which a single feed point is set at a central portion in a predetermined longitudinal direction.
An RFID tag communicates wirelessly. Its antenna folds multiple times symmetrically along its length on both sides of the communication element. The antenna features a straight main section running nearly the entire length. Folded sections, with opposing current flow from external electric fields, are parallel to the main section. The antenna has a first folded section that folds from the end toward the center, parallel to the main section at a first distance. A second folded section folds back from the center toward the end, parallel to the first section, at a second distance *smaller* than the first. This second distance is no more than twice the radiating section width of the short-range communication antenna it will communicate with, where that antenna has a single feed point at the center of its radiating section.
3. The RFID tag of claim 2 , wherein, at the tag antenna, the second folded-over antenna portions are disposed parallel to the main antenna portion at an interval of less than the first predetermined interval.
The RFID tag from the previous description is further enhanced. Specifically, in the tag antenna, the second folded-over antenna portions are positioned parallel to the main antenna portion at a separation that is less than the separation of the first folded-over antenna portions from the main antenna portion.
4. The RFID tag of claim 2 , wherein the tag antenna has, at a central portion of the main antenna portion, a loop-shaped antenna portion that commonly has a portion of the main antenna portion, and the element for communication is on the loop-shaped antenna portion and is set at a position that is different than the main antenna portion.
The RFID tag described earlier also contains a loop-shaped antenna portion. This loop is at the center of the main antenna section and shares a segment of the main antenna. The communication element (chip) sits on the loop antenna, at a point separate from the main antenna section.
5. A non-contact communication device for carrying out communication in a non-contact state with an RFID tag, the device comprising: a communication antenna formed in a flat-plate-shape overall, for carrying out communication with the RFID tag, the communication antenna having a ground layer that is formed at one surface of the communication antenna over substantially an entire surface, and a rectangular radiating section that is formed in a rectangular shape that is long in a predetermined direction at another surface of the communication antenna, and having, at about a central portion in a longitudinal direction of the radiating section, a single feed point that passes through the ground layer, wherein a width of the radiating section in a direction forming a right angle with the longitudinal direction of the radiating section is greater than or equal to 0.3 mm and less than 10 mm, wherein an interval between the radiating section and the ground layer is greater than or equal to 1/512 and less than 1/64 of a wavelength of radio waves used in communication, and wherein the communication antenna is disposed such that the longitudinal direction of the radiating section coincides with a longitudinal direction of the main antenna portion of the RFID tag; and a communicating section carrying out communication with the RFID tag via the communication antenna, when the radiating section of the communication antenna is near the tag antenna.
A non-contact communication device communicates with RFID tags. It has a flat, rectangular communication antenna with a ground layer on one side and a rectangular radiating section on the other. The radiating section has a single feed point near its center connecting through the ground layer. The radiating section's width is between 0.3 mm and 10 mm, and its distance from the ground layer is between 1/512 and 1/64 of the radio wave's wavelength. The antenna's radiating section length aligns with the RFID tag's main antenna section. A communication section transmits and receives data through this antenna when the radiating section is close to the RFID tag. This antenna emits linearly polarized waves near the radiating section.
6. The non-contact communication device of claim 5 , further comprising a conveying device that conveys a plurality of the RFID tags, that are parallel in a transverse direction, such that the plurality of the RFID tags successively pass a region at which communication is possible via the communication antenna, wherein the communicating section is structured so as to, via the communication antenna, carry out communication individually with the RFID that passes the region at which communication is possible.
The non-contact RFID communication device includes a conveyor that moves multiple RFID tags, aligned side-by-side, past the antenna's communication range. The communication section then communicates with each RFID tag individually as it passes within range of the antenna described earlier which is a flat, rectangular communication antenna with a ground layer on one side and a rectangular radiating section on the other. The radiating section has a single feed point near its center connecting through the ground layer. The radiating section's width is between 0.3 mm and 10 mm, and its distance from the ground layer is between 1/512 and 1/64 of the radio wave's wavelength. The antenna's radiating section length aligns with the RFID tag's main antenna section.
7. A non-contact communication device for carrying out communication in a non-contact state with an RFID tag, the device comprising: a communication antenna formed in a flat-plate-shape overall, for carrying out communication with the RFID tag, the communication antenna having a ground layer that is formed at one surface of the communication antenna over substantially an entire surface, and a rectangular radiating section that is formed in a rectangular shape that is long in a predetermined direction at another surface of the communication antenna, and having, at about a central portion in a longitudinal direction of the radiating section, a single feed point that passes through the ground layer, wherein a width of the radiating section in a direction forming a right angle with the longitudinal direction of the radiating section is greater than or equal to 0.3 mm and less than 10 mm, wherein an interval between the radiating section and the ground layer is greater than or equal to 1/512 and less than 1/64 of a wavelength of radio waves used in communication, and wherein the communication antenna is disposed such that the longitudinal direction of the radiating section coincides with a longitudinal direction of the main antenna portion of the RFID tag; a communicating section carrying out communication with the RFID tag via the communication antenna, when the radiating section of the communication antenna is near the tag antenna; and a conveying device that conveys a plurality of the RFID tags, that are parallel in a transverse direction, such that the plurality of the RFID tags successively pass a region at which communication is possible via the communication antenna, wherein the communicating section is structured so as to, via the communication antenna, carry out communication individually with the RFID that passes the region at which communication is possible, wherein the communication antenna is disposed at an incline so as to be oriented toward both an RFID side and a downstream side in a conveying direction by the conveying device.
This non-contact RFID communication device includes an inclined antenna to read tags. The system has a conveyor that moves multiple RFID tags past the antenna. The communication section communicates with each tag individually. The flat, rectangular communication antenna has a ground layer, a radiating section with a single feed point, a width between 0.3mm and 10mm, and a distance to the ground layer between 1/512 and 1/64 of the wavelength, where the antenna's radiating section length aligns with the RFID tag's main antenna section. The antenna is tilted towards both the RFID tags and downstream along the conveyor path, optimizing communication while the tags pass within range of the antenna.
8. A non-contact communication method that carries out communication in a non-contact state individually with one of a plurality of RFID tags that each have a tag antenna that is long in a predetermined direction and that are parallel in a transverse direction that forms a right angle with a longitudinal direction of the tag antenna, the method comprising: placing a communication antenna according to claim 1 , such that the longitudinal direction of the radiating section coincides with the longitudinal direction of the tag antenna; causing the radiating section to approach one RFID tag among the plurality of RFID tags; and carrying out communication individually with the one of the plurality of RFID tags.
A method for reading RFID tags without contact: Position the communication antenna from claim 1 (flat, rectangular with a ground layer and a radiating section with specific dimensions and feed point) so its radiating section length aligns with the RFID tag's antenna length. Bring the radiating section close to *one* RFID tag at a time from a group of tags arranged side by side. Communicate specifically with that single RFID tag.
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December 18, 2009
July 23, 2013
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